Fully correct base64 code

11 years ago · 9baf83181e
--- a/source/tests/Base64.cpp
+++ b/source/tests/Base64.cpp
@@ -16,7 +16,7 @@
 */

 #include "CarlaBase64Utils.hpp"
 //#include "CarlaString.hpp"
 #include "CarlaString.hpp"

 int main()
 {
@@ -48,86 +48,71 @@ int main()
        char s[4];
        int i;
        double d;

        char padding[100];
        void* ptr;

        Blob()
            : s{'1', 's', 't', 0},
              i(228),
              d(3.33333333333),
              padding{0},
              ptr((void*)0x500) {}
        int32_t i32;
        int64_t i64;
        bool b;
    } blob;

 #if 0
    // binary -> base64
    void* const test0 = &blob;
    size_t test0Len = sizeof(Blob);

    char buf0[carla_base64_encoded_len(test0Len) + 1];
    carla_base64_encode((const uint8_t*)test0, test0Len, buf0);

    printf("BINARY '%s'\n", buf0);

    char buf0dec[carla_base64_decoded_max_len(buf0)+1];
    carla_zeroMem(buf0dec, sizeof(buf0dec));
    carla_base64_decode(buf0, (uint8_t*)buf0dec);

    Blob blobTester;
    blobTester.s[0] = 0;
    blobTester.i = 0;
    blobTester.d = 9999.99999999999999;
    std::memcpy(&blobTester, buf0dec, sizeof(Blob));

    CARLA_ASSERT(std::strcmp(blobTester.s, "1st") == 0);
    CARLA_ASSERT(blobTester.i == 228);
    CARLA_ASSERT(blobTester.d == 3.33333333333);

    // string -> base64
    const char* const test1 = "Hello World!";
    size_t test1Len = std::strlen(test1);

    char buf1[carla_base64_encoded_len(test1Len) + 1];
    carla_base64_encode((const uint8_t*)test1, test1Len, buf1);

    printf("'%s' => '%s'\n", test1, buf1);

    // base64 -> string
    const char* const test2 = "SGVsbG8gV29ybGQh";
    const size_t blobSize = sizeof(Blob);
    carla_zeroStruct<Blob>(blob);

    char buf2[carla_base64_decoded_max_len(test2)+1];
    carla_zeroMem(buf2, sizeof(buf2));
    carla_base64_decode(test2, (uint8_t*)buf2);
    blob.s[0] = '1';
    blob.s[1] = 's';
    blob.s[2] = 't';
    blob.i    = 228;
    blob.d    = 3.33333333333;
    blob.ptr  = (void*)0x500;
    blob.i32  = 32;
    blob.i64  = 64;
    blob.b    = true;

    printf("'%s' => '%s'\n", test2, buf2);

    printf("'%s' == '%s'\n", buf1, test2);
    printf("'%s' == '%s'\n", buf2, test1);

    CARLA_ASSERT(std::strcmp(buf1, test2) == 0);
    CARLA_ASSERT(std::strcmp(buf2, test1) == 0);

    // -----------------------------------------------------------------

    blob.s[0] = 'X';
    blob.i = 92320;
    blob.d = 9999887.99999999999999;

    CarlaString string;
    string.importBinaryAsBase64<Blob>(&blob);

    Blob* blob3 = string.exportAsBase64Binary<Blob>();

    CARLA_ASSERT(std::strcmp(blob3->s, blob.s) == 0);
    CARLA_ASSERT(blob3->i == blob.i);
    CARLA_ASSERT(blob3->d == blob.d);
    CARLA_ASSERT(blob3->ptr == blob.ptr);
    // binary -> base64
    char blobEnc[carla_base64_encoded_len(blobSize) + 1];
    carla_base64_encode((const uint8_t*)&blob, blobSize, blobEnc);
    std::printf("BINARY '%s', size:" P_SIZE "\n", blobEnc, blobSize);

    delete blob3;
 #endif
    {
        // base64 -> binary
        uint8_t blobDec[carla_base64_decoded_max_len(blobEnc)];
        carla_base64_decode(blobEnc, blobDec);

        Blob blobTest;
        carla_zeroStruct<Blob>(blobTest);

        std::memcpy(&blobTest, blobDec, sizeof(Blob));
        assert(blobTest.s[0] == '1');
        assert(blobTest.s[1] == 's');
        assert(blobTest.s[2] == 't');
        assert(blobTest.i    == 228);
        assert(blobTest.d    == 3.33333333333);
        assert(blobTest.ptr  == (void*)0x500);
        assert(blobTest.i32  == 32);
        assert(blobTest.i64  == 64);
        assert(blobTest.b    == true);
    }

    // -----------------------------------------------------------------
    {
        // CarlaString usage
        CarlaString string;
        string.importBinaryAsBase64<Blob>(&blob);
        assert(std::strcmp(blobEnc, (const char*)string) == 0);
        assert(std::strlen(blobEnc) == string.length());

        Blob* blobNew = string.exportAsBase64Binary<Blob>();

        assert(blobNew->s[0] == '1');
        assert(blobNew->s[1] == 's');
        assert(blobNew->s[2] == 't');
        assert(blobNew->i    == 228);
        assert(blobNew->d    == 3.33333333333);
        assert(blobNew->ptr  == (void*)0x500);
        assert(blobNew->i32  == 32);
        assert(blobNew->i64  == 64);
        assert(blobNew->b    == true);

        delete blobNew;
    }

    return 0;
 }
--- a/source/utils/CarlaBase64Utils.hpp
+++ b/source/utils/CarlaBase64Utils.hpp
@@ -89,7 +89,7 @@ void carla_base64_encode(const uint8_t* const raw, const size_t len, char* const

    *(encodedBytes++) = '\0';

    carla_debug("Base64-encoded to \"%s\":\n", encoded);
    carla_debug("Base64-encoded to \"%s\"\n", encoded);
    CARLA_ASSERT(std::strlen(encoded) == carla_base64_encoded_len(len));
 }

@@ -173,7 +173,7 @@ unsigned int carla_base64_decode(const char* const encoded, uint8_t* const raw)

    unsigned int len = bit/8;

    carla_debug("Base64-decoded \"%s\"", encoded);
    carla_debug("Base64-decoded from \"%s\"", encoded);
    CARLA_ASSERT(len <= carla_base64_decoded_max_len(encoded));

    /* Return length in bytes */
--- a/source/utils/CarlaString.hpp
+++ b/source/utils/CarlaString.hpp
@@ -282,28 +282,32 @@ public:

    void fromBase64()
    {
       uint8_t buffer2[carla_base64_decoded_max_len(buffer)];
        uint8_t buffer2[carla_base64_decoded_max_len(buffer)];

       if (unsigned int len = carla_base64_decode(buffer, buffer2))
          _dup((char*)buffer2, len);
       else
          clear();
        if (unsigned int len = carla_base64_decode(buffer, buffer2))
        {
            char bufDecoded[len+1];
            std::strncpy(bufDecoded, (char*)buffer2, len);
            bufDecoded[len] = '\0';
            _dup(bufDecoded, len);
        }
        else
            clear();
    }

    void importBinaryAsBase64(const uint8_t* const raw, const size_t rawLen)
    {
        const size_t rawBufferSize = carla_base64_encoded_len(rawLen) + 1;
        char         rawBuffer[rawBufferSize];
        const size_t rawBufferSize = carla_base64_encoded_len(rawLen);
        char         rawBuffer[rawBufferSize+1];
        carla_base64_encode(raw, rawLen, rawBuffer);

        _dup(rawBuffer, rawBufferSize-1);
        _dup(rawBuffer, rawBufferSize);
    }

    template<typename T>
    void importBinaryAsBase64(const T* const t)
    {
        const size_t tSize = sizeof(T);
        importBinaryAsBase64((const uint8_t*)t, tSize);
        importBinaryAsBase64((const uint8_t*)t, sizeof(T));
    }

    size_t exportAsBase64Binary(uint8_t** const rawPtr)
@@ -319,6 +323,7 @@ public:
            return len;
        }

        *rawPtr = nullptr;
        return 0;
    }

@@ -332,7 +337,7 @@ public:
            CARLA_ASSERT_INT2(len == sizeof(T), len, sizeof(T));

            T* const t = new T();
            std::memcpy(t, binaryBuffer, len);
            std::memcpy(t, binaryBuffer, sizeof(T));

            return t;
        }